DE1934946A1 - Fluorescent lamp - Google Patents

Description

Fluorescent lamp The fluorescent lamps that are currently being manufactured earth, are formed schematically like an electrical capacitor, with as a dielectric a phosphor is provided. When applying an alternating voltage between the In both fittings, the fluorescent material is excited and emits light. The usual system requires a large number of operations and has considerable difficulty on. Usually an electrode is constructed in such a way that one touches the glass with a makes chemical processes conductive and transparent. Then the one with a organic Binder mixed fluorescent material applied. When the fleece layer has dried, we <i applied a dielectric, reflective layer of which color, to increase dielectric strength and light output. Last creates a second electrode can be applied by spraying on a conductive lacquer or by aut ' a Metallschictit under vacuum The V procedure requires great care, as very homogeneous sizing are necessary, but this is not easily achievable. if the two fittings are closer together in one zone than in others At the point of the component, electrical discharges can occur with destruction of the whole component. Therefore, the production in large quantities is complicated, precisely because it is very difficult to produce layers of constant thickness of a few microns to raise. This limits the supply voltage of the component to values of more than 110 RMS volts, as it is not possible to use lower values of the layer thicknesses going back if you don't want high amounts of waste. Also decreased As the thickness of the phosphor layer decreases, so does the luminous flux, which is proportional to the amount of phosphor and also to other factors depends.

The invention has set itself the task, on the one hand, the construction to simplify and on the other hand to increase the quality of the lamp considerably.

A fluorescent lamp according to the invention, the two electrical conductors of different potentials to which alternating current is applied and which the Excite luminescent material is essentially characterized by the fact that the two Ladder in the form of interlocking and mutually isolated combs on one and are arranged on the same surface and next to at least one phosphor layer lie. In practice, the two conductors are located between an insulating one Base and the phosphor layer To in practice a lamp according to the invention to produce, one brings a metal layer on any, but insulating The pad is opened using the photo-incision method, which is very similar to the When making a printed circuit board, two conductors are used created in the form of combs that interlock and are isolated from each other. The width of the conductors is intended to be about ten microns and so is the width of the insulating part. Then you bring a layer Fluorescent fabric, to which an organic binding agent is added, by spraying or by screen printing on.

A protective layer is advantageously distributed on the phosphor layer.

According to an advantageous embodiment, the insulating The base and the ladder are transparent.

Even if the protection of the phosphor layer is transparent, it can the lamp emits light from both surfaces of its laminar structure.

One can see the dimensions of the width of the two conductors and that between them the insulating part located on the order of about ten microns, so that one gets a practically uniform emission.

The ladder can be made using the photographic incision system o. The like. Or with the system of printed circuits or with mechanical or chemical incision, always assuming a continuous conductor will.

The invention is based on the description and the accompanying Drawing showing a practical, non-limiting example of the invention, The figures show: FIG. 1 a schematic sectional drawing that is not true to scale a lamp according to the invention Fig. 2 shows an arrangement of the conductors.

In the drawing, the base is marked with 1, which is made of glass, Plastic or the like, possibly flexible material, with which a lamp that 'because of the reducible layers and strengths that make up them is composed, is malleable in contrast to the usual lamps which special measures are necessary in the formation. Numbers 3A and 3B are comb-shaped Ladder denotes in which the arms of one are placed between the arms of the other and the arms of each conductor are connected by a collector. With 5 is denotes the layer of the phosphor, 7 is the protective layer made of resin o. Like. Denotes that can be transparent, in which case the lamp after both Side can emit light.

When AC voltage is applied between the two conductors one is the light emission, which - with the same frequency and supply voltage - is about the is the same, which is obtained with the classic structural elements with several layers. The distance between the conductors and their width can be obtained with accuracy can determine the nominal supply voltage. It is possible in this case to lower it Feed values as 110 Effective Volts to go down as the isolating Part between the ladders can be obtained in a much more precise way than with the classical system also the Liclitstrom is not reduced, since the amount of phosphor applied per unit area remains constant. The capacity values of the component per unit area will be considerably less compared to the classic system, so that much higher feed frequencies are possible the losses in dieiektrikuni are lower and therefore the luminous fluxes are higher, insofar as a directly proportional relationship between luminous flux and feed frequency consists.

You get other benefits that are impossible to do otherwise can get. If you use a transparent base you get a luminous flux on both sides of the component and when the metallization is made transparent one obtains equality between the luminous fluxes passing through the two sides walk.

In the design described, the capacitance of the conductors is low and you can increase the frequency, increasing the lighting effect (albeit shortening the service life of the lamp).

Given the type of lamp, the phosphor could be regenerated will.

Note that in order to protect the component from exposure to dust and other components of the atmosphere to protect the phosphor layer applies a layer of clear plastic, which can also be poured cold can. In this way one obtains components with completely the same lifespan, at the same feed frequency as that of the electro-luminescent components with multiple Layers.

The components of fluorescent lamps can be rigid or flexible be used to manufacture lamps for signaling, lighting and decorative purposes and for the reproduction of any graphic symbol, in particular for creation of digits for use in counting instruments, for the representation of digits (such as the values of the stock exchange quotations), in sports facilities Street signs and other things. You can use phosphors in several colors and the incision of the ladder can be designed to give desired zones and shapes cured by luminous objects, the possibility being non-simultaneous Ignition and even alternative ignition is given.

It turns out that the drawing shows only an example that is only given as a practical embodiment of the invention, the invention in the shapes and arrangements vary without departing from the spirit of the invention can.

Claims (10)

PATENT CLAIMS 1. Fluorescent lamp, the two electric excitable with alternating current Has conductors with different potentials that excite a phosphor layer, characterized in that the two conductors (3A, 3B) iii form of interlocking and isolated from each other on the same surface and next to at least one Phosphor layer are arranged. 2. Lamp according to claim 1, characterized in that the two da13 Conductor between an insulating base (1) and the fluorescent layer (5) are included. Lamp according to Claim 1 or 2, characterized in that the insulating Document (1) is important. 4. Lamp according to claim 3, characterized in that the conductors (3A, 3B) are transparent. 5. Lamp according to claim 3, characterized in that the protective layer (7) is transparent for the phosphor layer and the lamp light on both surfaces its laminar structure emits. 6. Lamp according to the preceding claims, characterized in that because the insulating pad (1) is flexible. 7. Lamp according to the preceding claims, characterized in that that the two conductors (3A, 3B) as well as the insulating part that is between them located, have a width of the order of microns 8. Lamp according to the preceding Claims, characterized in that the conductors (3A, 3B) with the system of photographic inciston or the like. obtained or with the system of printed circuits, with mechanical or chemical incision of a continuous conductor. 9. Lamp according to the preceding claims, characterized in that that they are made from a transparent base (1), from one applied to this base Conductor layer from which the two conductors (3A, 3B) in the form of interlocking Combs are formed from a layer of phosphor that is applied to the conductor layer is distributed, from which this conductor was obtained and from one on this phosphor layer distributed protective layer (7). 10. fluorescent lamp according to claim 1 - 9, characterized in that that they are used in particular for lighting, signaling purposes, for the reproduction of Letters, numbers and the like, also on two opposite sides of layers is constructed. L e r s e i t e